The educational objectives of the Electrical Engineering Technology Program identify what we hope that our graduates will accomplish within a few years after graduation. The objectives of the Electrical Engineering Technology Program are to:
• Achieve positions of increased responsibility (technical and/or supervisory) within an organization in electrical or related fields by leveraging their Electrical Engineering Technology skills and knowledge.
• Address and solve complex technical problems related to power generation, distribution and utilization in the country which is facing power shortage.
• Continue personal and professional growth by engaging in life-long learning; e.g., advanced education/degrees, professional development activities, and/or other career-appropriate options.
• work effectively in teams and communicating effectively within the team and to the its clients.
An Electrical Engineering technologist is a specialist devoted to the implementation of existing technology within a field of engineering. Technologists often work with engineers in a wide variety of projects by applying basic engineering principles and technical skills. The work of technologists is usually focused on the portion of the technological spectrum closest to product improvement, manufacturing and engineering operational functions.
The Electrical Engineering Technology program covers vast areas such as power system analysis, power system protection, Digital Image Processing, control systems, power distribution and utilization, AC/DC machines, analog and digital communication, microprocessor interfacing. The applied scheme of studies has been carefully designed to enhance both academic and professional aspects of Electrical Engineering Technology program. The core courses have been selected to enhance the design and development skills of students in the field of Electrical engineering technology.
The students also take courses in humanities, management and social sciences to develop well rounded personalities. The students in their final year are also required to complete a design or research project in which they apply the knowledge and skills gained during this engineering program. The students must then submit a written report, demonstrate their design and development effort and defend their project before a jury for award of grades.
The scope of BSc Electrical Engineering Technology is getting higher with the advancement of technology. Pakistan is making progress in this field with each of the day. Now we have lot of career build opportunities and job after engineering technology. Our markets and industries have a big demand for well skilled technologist. In upcoming time we are seeing that the technology will keep on boosting toward the progression. That is why we can imagine that how the higher is technology scope in Pakistan could be.
8 Semesters, 4 years
Candidate having Diploma of Associate Engineering (DAE) in Electrical, Electronics, Instruments or relevant field, or FSc./Intermediate in Pre-Engineering with Minimum 50% Marks
137
Course Code | Course Title | Credit Hours |
---|---|---|
EH-112 | Islamic Studies | 2(2-0) |
ES-113 | Applied Mathematics – I | 3(3-0) |
ES-123 | Applied Physics | 3(2-1) |
ET-114 | Linear Circuits Analysis | 3(2-1) |
ET-123 | Engineering Drawing | 3(1-2) |
ES-133 | Introduction to Computer Fundamentals | 3(1-2) |
Total Credit Hours: | 17 |
Course Code | Course Title | Credit Hours |
---|---|---|
EH-123 | Communication Skills | 3(3-0) |
EH-132 | Pakistan Studies | 2(2-0) |
EH-134 | Electronics | 4(2-2) |
ET-143 | Basic Mechanical Technology | 3(2-1) |
ES-123 | Applied Mathematics-II | 3(3-0) |
ET-153 | Electrical Machines-I | 3(2-1) |
Total Credit Hours: | 18 |
Course Code | Course Title | Credit Hours |
---|---|---|
ET-212 | Power Generation System | 2(2-0) |
EH-213 | Technical Report Writing | 3(3-0) |
ET-224 | Electrical Instruments and Measurements | 4(2-2) |
ET-234 | Electrical Machines-II | 4(2-2) |
ET-244 | Digital Electronics | 4(2-2) |
Total Credit Hours: | 17 |
Course Code | Course Title | Credit Hours |
---|---|---|
ET-254 | AC Circuit Analysis | 4(2-2) |
ET-262 | Electro-Megnetic Field | 2(2-0) |
ET-273 | Electrical Power Transmission | 3(2-1) |
ET-283 | Electrical Power Distribution and Utilization | 3(2-1) |
ET-294 | Power Electronics | 4(2-2) |
Total Credit Hours: | 16 |
Course Code | Course Title | Credit Hours |
---|---|---|
ET-313 | Micro-Processor Theory and Interfacing | 3(2-1) |
ET-323 | Switch Gear and Protective Devices | 3(2-1) |
ET-334 | Communication Technology | 4(2-2) |
ET-343 | Control Technology | 3(2-1) |
ET-353 | High Voltage Technology | 3(2-1) |
EM-312 | Total Quality Management | 2(2-0) |
Total Credit Hours: | 18 |
Course Code | Course Title | Credit Hours |
---|---|---|
EM-323 | Project Managment | 3(3-0) |
ET-362 | Power System Analysis | 2(2-0) |
ET-374 | Data and Computer Communication | 4(2-2) |
ET-384 | Industrial Drives and PLC | 4(2-2) |
ET-393 | Project | 3(0-3) |
Total Credit Hours: | 16 |
Course Code | Course Title | Credit Hours |
---|---|---|
EM-323 | Project (Continue) | 3(0-3) |
Total Credit Hours: | 03 |
Course Code | Course Title | Credit Hours |
---|---|---|
ET-4116 | 16 Weeks Supervised Industrial / Field Training (8×5=40Hrs / Week) |
16(0-16) |
Course Code | Course Title | Credit Hours |
---|---|---|
ET-4216 | 16 Weeks Supervised Industrial / Field Training (8×5=40Hrs / Week) |
16(0-16) |